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LARGE-SCALE CARBON CAPTURE
Skytree Stratus Park
By leveraging an interconnected series of standardized units, Skytree Stratus Parks provide a practical and cost-effective solution for large-scale carbon capture.
LARGE-SCALE CARBON CAPTURE
By leveraging an interconnected series of standardized units, Skytree Stratus Parks provide a practical and cost-effective solution for large-scale carbon capture.
SKYTREE STRATUS PARK BENEFITS
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Phased deployment and optimized energy use reduce costs and improve operational efficiency. Start with a single DAC machine to lower project risk and unlock financing by proving performance early. Additional savings come from our production-ready design, standard components, scalable manufacturing, field-upgradable sorbents and integration with onsite thermal energy.
ADAPTABLE BY DESIGN
Liquefy captured CO₂ for long-term storage or for a reliable, high-quality onsite supply.
Operate Skytree Stratus using low-temperature heat and cooling sources - including geothermal, industrial, or waste heat - to reduce electricity use and improve energy efficiency.
Ensure optimal system performance in a range of climate conditions, including temperate, arid, tropical and polar climates.
DAC IN THE WILD
Our modeled scenarios demonstrate how Skytree Stratus adapts and performs under different site conditions. To assess what performance could look like for you, we’ll create a custom business case using your site specifications.
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A large-scale Skytree Stratus Park for permanent carbon removal in a polar climate, uses a high temperature geothermal heat source, a cold water source and electricity from the grid with high renewables penetration.
Operating temperature: -35°C to 5°C
Energy efficiency: 1.38 kWh per captured kg of CO₂
Daily capture capacity: 1,343kg of CO2 per machine
Life Cycle Assessment: 85% net efficiency
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OUR DAC MACHINES
Our DAC machines are designed to accommodate a range of use cases and site requirements.
The CO₂ transition in motion
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Jun 18 2025
Direct Air Capture Technology Skytree Stratus Wins Prestigious GreenTech Innovation Award 2025
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Jun 17 2025
Skytree and Algae Capital Collaborate to Integrate Circular CO₂ in Algae Production in Iceland
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May 20 2025
Skytree’s Direct Air Capture (DAC) technology has been selected by Germany’s Forschungszentrum Jülich for a pioneering Power-to-X research project. The goal: to create a scalable, real-world model for converting solar energy into carbon building blocks usable as eFuel or base chemical eFuels are renewable, carbon-neutral liquid fuels that can be produced in desert climates, powered by solar energy, and transported to energy-demanding regions like Europe. This initiative aims to demonstrate how companies could transform excess renewable energy into safely transportable fuels using Direct Air Capture in the future.
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GET STARTED
From planning to deployment, DAC Parks are built to launch quickly, scale efficiently, minimize risk and enable financing.